CN101449577A

CN101449577A - Ambient experience instruction generation

Info

Publication number: CN101449577A
Application number: CNA200780018334XA
Authority: CN
Inventors: D·A·埃夫斯; R·科尔; J·B·A·M·霍斯滕
Original assignee: Koninklijke Philips Electronics NV
Current assignee: Koninklijke Philips NV
Priority date: 2006-05-19
Filing date: 2007-05-08
Publication date: 2009-06-03
Also published as: EP2025164A1; WO2007135585A1; JP2009538020A; TW200809567A; US20090106735A1; KR20090029721A

Abstract

A method for generating a sequence of instructions comprises determining one or more time values, accessing a pool of markup language fragments, and processing the markup language fragments according to the or each time value. The output of the processed fragments is then combined into a sequence of time-stamped instructions either as a single file or as a number of device-specific files. A system implementing the method is also described.

Description

Ambient experience instruction generates

Technical field

The present invention relates to a kind of method and system that is used to generate command sequence.

Background technology

Provide amusement to take a lot of different forms via electronic equipment to end subscriber.For example, can provide music, and can pass on video or visual experience by TV and via for example video disc or " DVD " player by dedicated audio equipment.Personal computer (PC) also is used to pass on amusing products (for example film and recreation).The enhancing that specific environment is experienced is such technical field: its purpose is to enjoy by providing anything the extra experience of user's normal experience that surpasses and enjoying greater than the user to increase consumer entertainment.The foolproof example of this enhancing is present in the known computer software of the figure that provides when the user listens to music on the screen.Normal experience is a music, wherein, provides improvement by the visual display unit on the PC.

More complicated enhanced system is known.For example, U.S. Patent Application Publication US2002/0169817 has described real world and has represented system and language.Real world represents that system comprises one group of equipment, and each equipment is arranged so that one or more real-world parameters for example audio frequency and visual signature to be provided.In the described equipment at least one is arranged with the real world that receives the instruction set form and describes, and operates described equipment according to described description.Expressed general term is explained by home server or distributed browser is explained in described language, presents real world experience with operating equipment to the user.The assembly of experience described in system's usage flag language of describing in the document, and the assembly of described experience is subsequently explained in the equipment around the user, so that the various aspects of user surrounding environment to be provided.

Described the further enhancing of this system in U.S. Patent Application Publication US 2005/0204280, it relates to dynamic markup language.In the document, the method that is used to generate SGML has been described, it comprises: visit dynamic markup language segmentation pond; Use at least one predetermined factors (for example time) to handle described segmentation; And, correspondingly generate marking language document.In this way, derive statement property marking language document, but it has effectively dynamic content.This system is used for the markup language fragments of a series of complexity is treated to single document, and the document can use in the system of above-mentioned US 2002/0169817 subsequently, to control the equipment of this system.

The equipment that can be required restricted function by the aforesaid system of employed markup language fragments of equipment that produces the enhancing of experiencing and/or document by calculation mode is provided.This system also may be subject to: if legacy devices can not provide the necessary processing function to participate in described enhancing, then they may not operation correctly in system.

Summary of the invention

Therefore, the objective of the invention is to improve known technology.

According to first aspect present invention, a kind of method that is used to generate command sequence is provided, it comprises: determine one or more time values; Access flag language fragments pond; Handle described markup language fragments according to described or each time value; And generation time stabs command sequence the markup language fragments after handling.

According to second aspect present invention, the computer program on a kind of computer-readable medium is provided, it comprises the command history that is used to generate command sequence, described set comprises the order that is used for following operation: determine one or more time values; The pond of access flag language fragments; Handle described markup language fragments according to described or each time value; Generation time stabs command sequence the markup language fragments after handling.

According to third aspect present invention, a kind of system that is used to generate command sequence is provided, it comprises: processor, its be arranged with: determine one or more time values; The pond of access flag language fragments; Handle described markup language fragments according to described or each time value; Generation time stabs command sequence the markup language fragments after handling.

Because the present invention, might provide a kind of from original markup language fragments the rise time stab the method for command sequence.If this system becomes and close (be that sight can not change, and do not add or remove content) during this period, then this allows the operation more efficiently of enhanced system.Therefore, advantageously, the ordered set of instruction is collected and be converted into to " dynamically " of employing segmentation.Described method and system (for the system that closes) allows the planarization of the set of dynamic markup language segmentation, removing all conditions element and to determine specific action in the enhanced system, and when must carry out these actions.

So, this translation process will allow littler and/or more efficiently playback engine to keep the continuous playback of described content.If single initial body of content is transmitted, and subsequently in the beginning of cineloop, the source disconnects the SGML that for example transmits from the Internet and experiences description, then this situation may typically occur.In fact, system moves in advance, to produce instruction or the content description at all predictions in triggered time.Can come it is stored by the form of time the Comments List of instruction subsequently.

In the case, the engine of controlling the operation of described enhanced system only must be handled the command sequence of the triggering synchronous make specific instruction at the engine internal clock.This need much less powerful processors and simple algorithm more.The extension of this design will allow the subdivision of system, the pretreated sequence that (for example single display device is such as lamp) has the incident that only is used for self.

The invention provides following advantage: under many circumstances, might reduce the processor load that is moving, thereby system only has the single situation high activity of (for example " guiding " period) by this technology.This operation subsequently discharges processor resource to Another Application (for example recreation or cineloop).Similarly, the processing resource that is released is carried out load balance, is pre-determined the part of playback during can being used for managing aloft the device availability window.

The present invention can also be in other cases, and (for example when the restriction of any system may be the size of memory or entire process device ability) brings advantage.Therefore, the ability of carrying out pre-treatment step (may when off-line, carry out) will allow limited or basic equipment obtain with fully or the similar result of equipment of complex version, have the restriction of the limited or basic equipment that system that conduct closes moves simultaneously.

In this case, even can be by passing the planarization that service execution that network visits realizes by preliminary treatment, that is to say,, can before transmission, markup language content be converted to the form of planarization by describing end system to the engine that service is provided based on server.This will be not only aspect the bandwidth that reduces but also allow client devices relatively " make " aspect providing gain, the advantage of the more complicated enhanced system of maintenance still simultaneously.

Under a kind of situation in back, it is contemplated that very simple playback software for example is included in the certain movie " lamp " that it receives " the closing " of simplifying from parent device or service and describes, but can continue playback subsequently and further do not get in touch with parent device.This can reduce bandwidth demand, increase system robustness and reduce processor load on the parent device.If the system that parent device requires to close changes, then can start and interrupt and repeat handling.

Advantageously, the step of determining described or each time value comprises: described or each time value in one or more markup language fragments is also determined in access flag language fragments pond.Need time value to determine when incident (for example lamp is opened and closed) should take place.By determining time value to be used from real marking segmentation itself, will catch by employed all time values of the set of markup language fragments, and can be fast and carry out this processing of determining time value efficiently.

In one embodiment, the generation of timestamp command sequence comprises: generate single file, described single file comprises described timestamp command sequence.This is the generation of instructing the most efficiently, promptly simply they is placed in the single file in order, and described single file can be the form of any appropriate supported by the engine of the enhancing of controlling recreation experience.

In a second embodiment, the generation of timestamp command sequence comprises: generate a plurality of device specific files, each device specific files comprises timestamp command sequence separately.The method of this generation instruction is more or less more complicated than first embodiment, and its support will pass to each device specific files the enhanced system of each equipment that needs instruction simply.Because these equipment have been provided all their required instructions in advance, thus do not need instruction is delivered to each equipment continuously from engine,, so simplified the actual motion of enhanced system like this.

Preferably, the method that generates command sequence further comprises: the access end system description, and during producing described timestamp command sequence, use described end system to describe to determine described timestamp instruction.This end system is described using the ability of the actual augmentation system of the instruction that is generated to be described.By visiting described information, can realize treatment effeciency after a while along with creating instruction.For example,, but in end system, do not have Temperature-controlled appliance (as shown in the end system description), then do not handle these segmentations, and do not have the instruction relevant with temperature change if markup language fragments relates to the change of temperature.

In one embodiment, carry out the visit that described end system is described by network, and described method comprises further: described timestamp command sequence is sent back to the position that described end system is described by described network.This has the following advantages: the processing that markup language fragments becomes command sequence can take place away from actual augmentation system.For example, the processor of generation of execution command can be the part of the center service that can visit by network, wherein said service receiving terminal system is described, and correspondingly generates described timestamp command sequence, to be used to send back to the position of described enhanced system.Needs have been eliminated like this, the actual command sequence that produces the position of present described enhanced system of described treatment system to treatment system.

Ideally, the method that generates described instruction further comprises: the pond of monitoring mark segmentation, and after the change in the pond that detects the mark segmentation, generation time stabs command sequence again.If add new segmentation the pond of markup language fragments to, then this means enhanced system with respect to the change of the experience that passes to the user in operation.New segmentation can be with reference to the new parameter change of new equipment or current device.In the case, need once more the rise time to stab command sequence, and therefore advantageously monitor the pond of segmentation and if, then move the generation cycle once more for any change in the pond of segmentation.

Advantageously, described method further comprises: during generation time stabs command sequence, the instruction of any generation is sent to one or more equipment.The generation of timestamp instruction need not to occur as the function of closing.For example, owing to generated instruction, therefore they can be delivered to the engine that moves described enhanced system or each equipment of carrying out described enhancing thereafter forward.When the set of pond that has very large segmentation and/or equipment, this is especially favourable, and the actual instruction sequence will be longer relatively.Even when new instruction is just formatted, create and transmit described instruction immediately.

Description of drawings

Now will only pass through example and embodiment with reference to the accompanying drawings to describe the present invention, wherein:

Fig. 1 is the schematic diagram that is used for the system of the generation of declarative instruction sequence and reception and registration,

Fig. 2 is the flow chart that generates the method for command sequence,

Fig. 3 is the schematic diagram that is used to generate the system of command sequence,

Fig. 4 is the schematic diagram that is used to pass on the environment of recreation experience,

Fig. 5 is the schematic diagram of the sequence of the pond of markup language fragments and the instruction that generates from the pond of markup language fragments.

Embodiment

Fig. 1 illustrates and will use the system of the timestamp command sequence that is generated by processor 10.The output of processor 10 is timestamp command sequences, goes through the generation of timestamp command sequence with reference to the flow chart of Fig. 2.

In the simplest embodiment of enhanced system, engine 14 receives command sequence and uses described command sequence to come control appliance 16, and equipment 16 is used to provide the surrounding environment of the recreation experience that strengthens the user.Handle described instruction by engine 14, engine 14 is kept for clock regularly, and described instruction is used for when each equipment 16 of needs they being controlled.

The alternative possibility of the operation of enhanced system is that command sequence 12 is divided into a plurality of device specific files 18, and each device specific files comprises timestamp command sequence separately.These individual files 18 are passed to foolproof engine 20 subsequently, are used for each equipment 16 that constitutes local enhanced system is controlled with rear engine 20.

Fig. 2 illustrates the method for rise time stamp command sequence 12, and this method is carried out by the functional block 10 (being processor 10) of Fig. 1.The method that generates command sequence 12 comprises: determine 210 initial time values; Visit the pond of 212 markup language fragments; Handle 214 described markup language fragments according to described time value; And the markup language fragments after handling produces 216 one or more timestamp command sequences 12.If detect other time value, then in step 218, processor 10 returns the segmentation that step 212 and reprocessing have new time value.

For simple recreation experience (for example film), the enhancing of film is supported in the pond of mark segmentation.Can obtain these segmentations by many different modes.For example, if film is provided on DVD, then this DVD can carry segmentation.Alternately, can call segmentation from local memory device, perhaps assemble segmentation from one or more remote source (for example Internet service) by PC or recreation center.The processor 10 of system translates to the spendable set of timestamp instruction with this segmentation, and it can be utilized by the simple enhanced system with equipment that can not the marks for treatment language fragments.

In the step 210 of Fig. 2, at first determine the initial time value by

processor

10,10 times of implementation of processor are stabbed the generation of command sequence 12.This initial time value can be the time 0, perhaps can be with some At All Other Times as the time started.A kind of method of determining the initial time value is: the pond of access flag language fragments, and next the earliest time value that comprises in definite one or more markup language fragments.

In case determined the initial time value, processor 10 is just visited the pond of 212 markup language fragments, and handles 214 segmentations producing one or more timestamps instruction 12, and described one or more timestamps instructions 12 are relevant with the initial time that is used to handle segmentation.In step 216, in case finished this processing, processor 10 just determines whether to have value At All Other Times in step 218, should generate instruction for described time value.If be not worth At All Other Times, then this method stops in step 220.

Yet if determined other (a little later) time value, this method is got back to step 212, and for the segmentation in the treatment pond again of new time.Repeat this processing subsequently, up to the pond that all possible time value is used to handle segmentation.The final set of instruction can be used as the single file that comprises timestamp command sequence 12, or a plurality of device specific files 18, and each device specific files 18 comprises timestamp command sequence 12 separately.The particular instance in the pond of Fig. 4 and Fig. 5 reference marker language fragments illustrates in greater detail the step of rise time stamp instruction.

Described method may further include: the pond of monitoring mark segmentation, and after the change in the pond that detects the mark segmentation, generation time stabs command sequence once more.

Can just carry out segment processing to generate command sequence 12 away from the user at the remote location place of the specific enhancing environment of real experiences amusing products (for example film).Fig. 3 illustrates this situation, and Fig. 3 illustrates and strengthens the position 22 that takes place, the equipment 16 that it comprises simple playback 14 and surrounding environment is provided.This position 22 is away from the second place 24, wherein processor 10 generating run of sequence 12 that executing instruction.Network 26 (for example the Internet) connects described two

positions

22 and 24.

A series of orders that processor 10 is carried out from CD-ROM 28 are to carry out the method that generates command sequence 12.In a preferred embodiment, the end system of processor 10 visit description equipment 16 describes 30, and during the generation step of timestamp command sequence 12, timestamp instruction 12 is determined in use side system description 30.

Carry out the step of access end system descriptions 30 by network 26, and processor 10 sends back to end system by network 26 with timestamp command sequence 12 and describes 30 position 22.Processor 10 uses to be described 30 final command sequence 12 is restricted to the instruction relevant with the equipment 16 of 22 appearance in the position.For example, do not have vibrating handle (rumblepad) to appear at position 22 if end system is described 30 indications, then processor 10 will not comprise any vibration instruction in the command sequence 12 that is sent back to position 22.

Fig. 4 illustrates the example of position 22, and wherein, display device 32 is showed a film to the user who is sitting on the couch 34.The equipment that two enhancings also occur, lamp 16a and fan 16b.Owing to might occur the contributive more equipment of surrounding environment, therefore the purpose in order to explain has been simplified environment shown in Figure 4.As shown in Figure 5, the pond 36 of ten markup language fragments 38 has been provided film or (for example local PC) compiled from one or more alternative sources.In addition, in order to simplify explanation, reduced the quantity and the complexity of segmentation 38.

The film that the user is just watching comprises three scenes, and one the next one is the arctic in the desert, and the 3rd in jungle.Create the simple description of scene with SGML.Segmentation 38 in the pond 36 has three types, and three segmentations in the top in the pond 36 38 describe with film in three objects that scene is corresponding, in general time of continuing of its definition object and enhancing that provides.Should be understood that the system that moves by in this way, a large amount of objects and improvement are possible.

The segmentation of second type be with object in the assets that are complementary of the improvement listed, and the 3rd type specification the equipment that in position 22, occurs.

These segmentations 38 have constituted at the SGML that begins to convey to processor 10 of film to be described.Existing supposing the system has become closes, and the time will pass, and not have new material to be added or to remove.For the foolproof engine 20 in simple playback engine 14 or each equipment 16, will represent by the planarization that processor 10 generates segmentation 38, as the time notes and commentary tabulation of action.

Operational system realizes said method by being ahead of in time as quickly as possible in essence in real time.Owing to always know when next event will take place in the system that closes, therefore can realize this operation especially efficiently.In each known event in future time, " snapshot " can occur, and can generate relevant instruction and timestamp.Typically, it will be stored hereof.

Indicate next timestamp at each snapshot place, thereby and can repeat described processing.Since known system will still " closing ", perhaps owing to providing the resource that can use for system and possible equipment in practice, so this operation will continue leading in time far away.Come the completed file of playback by simple playback 14 or suitable element subsequently, described suitable element is sent straight to display device, at described display device place, and similar (but special equipment) playback engine sequence that will execute instruction.

In the segmentation 38 of Fig. 5, processor will be determined initial time value 0 according to three object fragments 38 (desert, the arctic and jungle), and this has constituted determined initial time value in first method step 210 of Fig. 2.With the segmentation in the access pool 36 38, and handle segmentation 38 with preprocessor 10 with described time value.

Very first time value is 0, and from segmentation " desert ", processor 10 will determine that state " heat " and " orange " are in time 0 existence (live).Processor 10 is searched for segmentation 38 thereafter, and described segmentation 38 provides these state values and the device type relevant with these values.Under the situation of " heat ", for the value of temperature device existence from the 40C of segmentation " hot_asset ".Also have the segmentation 38 of definition fan A (the equipment 16b among Fig. 4), and therefore, this translates to instruction " fan A is set to 40C in the time 0 ".For in segmentation 38 that state " heat " and " orange " be provided each repeat this processing thereafter.

In case finish this operation, processor 10 just moves forward to next time value, and this time value is 3.Generate new command sequence for this time value, this new command sequence can be included in the contrary instruction of the instruction that the time 0 provides.For repeating this processing by processor 10 detected each time value.In this way, the rise time is stabbed command sequence 12, or as single file, or as a series of device specific files 18.

Should be understood that described system is described to determine single time value t, time value t is used to calculate the instruction at time t subsequently, subsequently and search next time t+1, is possible but generation time stabs the alternative of command sequence.For example, can begin to determine all time values, and once segmentation handled for each time value subsequently.Yet preferred embodiment will be obtained each time value successively, and subsequently with segment processing for instruction and seek next time value.

If become " opening " once more at any dot system, then can interrupt simple playback by new description, perhaps processor 10 (complete system is engine-operated) can be taken over control.If favourable, then can encode, encrypt or compress command sequence in the arbitrfary point for fail safe, efficient or speed.Because when creating the instruction of planarization, do not require the transmission of processor 10 execution commands, and therefore processor 10 also needn't can handle a large amount of contents under many circumstances very fast not having activity for next " snapshot " or waiting for during the low movable period.

Further possible favourable use can be by making processor 10 move in advance with it from the playback de.In fact, this relates to command sequence is filled in utilization as quickly as possible to the simple playback 14 that will instruct granting in time to manage for the operation of equipment bottom.By this method, can satisfy the required strong processing of arbitrary height of complicated part of material in advance, this provides some " breather spaces ".During generation time stabs command sequence, send the instruction of any generation forward.

By reading the present invention, other variation and modification will be obvious for those skilled in the art.These variations and revise can comprise known in the art and can be as the equivalent and the further features that substitute (perhaps except) feature described here.

Though claims are at the particular combinations of feature, but should understand, scope of disclosure of the present invention also comprises significantly or any novel feature or arbitrarily novel combination or its any summary of feature disclosed herein implicitly, no matter whether it relates to and current identical invention of being stated in any claim, and no matter whether it alleviates and identical any or all technical problems involved in the present invention.

Also can be provided at the feature described in the context of independent embodiment by the combination of single embodiment.Otherwise, for the sake of simplicity, also can be discretely or various features described in the context of single embodiment are provided with the sub-portfolio of any appropriate.The applicant provides prompting in view of the above: in this application or from the pendend lite of any other application of its derivation, new claim can be described as these features and/or these combination of features.

For complete, state also that term " comprises " and do not get rid of other element or step that term " " is not got rid of a plurality of, and the Reference numeral in the claim should not be construed as and limits the scope of the invention.

Claims

1. a method that is used to generate command sequence (12) comprises: determine one or more time values; The pond (36) of access flag language fragments (38); Handle described markup language fragments (38) according to described or each time value; And according to markup language fragments (38) the generation time stamp command sequence (12) after handling.

2. according to the process of claim 1 wherein, determine that the step of described or each time value comprises: visit the pond (36) of described markup language fragments (38), and determine described or each time value in one or more markup language fragments (38).

3. according to the method for claim 1 or 2, wherein, the step that produces described timestamp command sequence (12) comprises: generate single file, described single file comprises described timestamp command sequence (12).

4. according to the method for claim 1 or 2, wherein, the step that produces described timestamp command sequence (12) comprises: generate a plurality of device specific files (18), each device specific files comprises timestamp command sequence (12) separately.

5. according to the method for any aforementioned claim, and further comprise: access end system description (30), and during the step that produces described timestamp command sequence (12), use described end system to describe (30) and determine that described timestamp instructs (12).

6. according to the method for claim 5, wherein, carry out the step that the described end system of visit is described (30) by network (26), and described method comprises further: described timestamp command sequence (12) is sent back to the position that described end system is described (30) by described network (26).

7. according to the method for any aforementioned claim, and further comprise: the pond (36) of monitoring described markup language fragments (38), and after the change of the pond that detects described markup language fragments (38) (36), produce described timestamp command sequence (12) again.

8. according to the method for any aforementioned claim, and further comprise: during producing described timestamp command sequence (12), the instruction (12) of any generation is sent to one or more equipment (16).

9. the computer program on the computer-readable medium, comprising: be used to generate the command history of command sequence (12), described set comprises the order that is used to carry out following steps: determine one or more time values; The pond (36) of access flag language fragments (38); Handle described markup language fragments (38) according to described or each time value; And according to markup language fragments (38) the generation time stamp command sequence (12) after handling.

10. according to the computer program of claim 9, wherein, described being used for determines that order described or each time value comprises: the order that is used for the pond (36) of access flag language fragments (38) and determines described or each time value in one or more markup language fragments (38).

11. according to the computer program of claim 9 or 10, wherein, the described order that is used to produce described timestamp command sequence (12) comprises the order that is used to generate single file, described single file comprises described timestamp command sequence (12).

12. computer program according to claim 9 or 10, wherein, the described order that is used to produce described timestamp command sequence (12) comprises: be used to generate the order of a plurality of device specific files (18), each device specific files (18) comprises timestamp command sequence (12) separately.

13. according to any one computer program in the claim 9 to 12, and further comprise the order that is used for access end system description (30), the described order that is used to produce described timestamp command sequence (12) is used described end system to describe (30) to determine that described timestamp instructs (12).

14. computer program according to claim 13, wherein, carry out the order that is used to visit described end system description (30) by network (26), and described product comprises further: be used for described timestamp command sequence (12) being sent back to the order that described end system is described the position of (30) by described network (26).

15. according to any one computer program in the claim 9 to 14, and further comprise the order that is used to carry out following steps: the pond (36) of monitoring described markup language fragments (38), and after the change of the pond that detects described markup language fragments (38) (36), produce described timestamp command sequence (12) again.

16. according to any one computer program in the claim 9 to 15, and further comprise: the instruction (12) that is used for will generating arbitrarily during the described timestamp command sequence of generation (12) sends to the order of one or more equipment.

17. a system that is used to generate command sequence (12) comprises processor (10), it is arranged to: determine one or more time values; The pond (36) of access flag language fragments (38); Handle described markup language fragments (38) according to described or each time value; And according to markup language fragments (38) the generation time stamp command sequence (12) after handling.

18. system according to claim 17, wherein, described processor (10) is arranged to: when determining described or each time value, and the described pond (36) of access flag language fragments (38), and determine described or each time value that one or more markup language fragments (38) are interior.

19. according to the system of claim 17 or 18, wherein, described processor (10) is arranged to: when producing described timestamp command sequence (12), generate single file, described single file comprises described timestamp command sequence (12).

20. system according to claim 17 or 18, wherein, described processor (10) is arranged to: when producing described timestamp command sequence (12), generate a plurality of device specific files (18), each device specific files (18) comprises timestamp command sequence (12) separately.

21., and further comprise according to any one system in the claim 17 to 20: memory device, its storage end system is described (30); Processor (10), it is arranged to: when producing described timestamp command sequence (12), use described end system to describe (30) and determine described timestamp instruction (12).

22. according to any one system in the claim 17 to 21, wherein, described processor (10) further is arranged as: the pond (36) of monitoring mark language fragments (38); And after the change of the pond that detects described markup language fragments (38) (36); Again produce described timestamp command sequence (12).

23. according to system any in the claim 17 to 22, wherein, described processor (10) further is arranged as: during producing described timestamp command sequence (12), the instruction (12) of any generation is sent to one or more equipment (16).